2022
Hoxa5 Activity Across the Lateral Somitic Frontier Regulates Development of the Mouse Sternum
Mitchel K, Bergmann JM, Brent AE, Finkelstein TM, Schindler KA, Holzman MA, Jeannotte L, Mansfield JH. Hoxa5 Activity Across the Lateral Somitic Frontier Regulates Development of the Mouse Sternum. Frontiers In Cell And Developmental Biology 2022, 10: 806545. PMID: 35557949, PMCID: PMC9086245, DOI: 10.3389/fcell.2022.806545.Peer-Reviewed Original ResearchLateral somitic frontierLateral plate mesodermSkeletal patterningTissue-specific contributionsPlate mesodermEmbryonic precursorsGenetic controlProper developmentHOXA5 expressionEmbryonic sourcesRegulate DevelopmentSkeletal phenotypeConditional deletionEmbryological informationMultiple rolesMesodermSkeletal systemHoxSomitesTheriansPrimordiaAdditive roleRegulatorDeletionMost aspects
2016
A Sawtooth Pattern of Cadherin 2 Stability Mechanically Regulates Somite Morphogenesis
McMillen P, Chatti V, Jülich D, Holley SA. A Sawtooth Pattern of Cadherin 2 Stability Mechanically Regulates Somite Morphogenesis. Current Biology 2016, 26: 542-549. PMID: 26853361, PMCID: PMC4822709, DOI: 10.1016/j.cub.2015.12.055.Peer-Reviewed Original ResearchConceptsECM assemblyGenetic mosaicsPosterior somitesDifferential cadherin expressionExtracellular matrixCell-ECM adhesionFN matrix assemblyBoundary formationVertebrate gastrulationSomite boundariesSomite morphogenesisCytoskeletal contractilityParaxial mesodermEmbryonic precursorsCDH activityMatrix assemblyCadherin expressionCDH2SomitesTissue boundariesIntegrin α5SomitogenesisCell sortingCell aggregatesAssembly
2002
Engraftment and differentiation of human metanephroi into functional mature nephrons after transplantation into mice is accompanied by a profile of gene expression similar to normal human kidney development.
Dekel B, Amariglio N, Kaminski N, Schwartz A, Goshen E, Arditti FD, Tsarfaty I, Passwell JH, Reisner Y, Rechavi G. Engraftment and differentiation of human metanephroi into functional mature nephrons after transplantation into mice is accompanied by a profile of gene expression similar to normal human kidney development. Journal Of The American Society Of Nephrology 2002, 13: 977-990. PMID: 11912257, DOI: 10.1681/asn.v134977.Peer-Reviewed Original ResearchConceptsHuman kidney developmentKidney developmentNormal human kidney developmentSpecific genesGene expressionGlobal gene expression patternsGlobal gene expressionMature nephronsGene expression patternsCell cycle regulatorsExtracellular matrix moleculesResult of hybridizationMolecular regulationCDNA arraysEmbryonic precursorsExpression patternsCycle regulatorsExpression profilesGenesMatrix moleculesExpression levelsAdult kidneyGrowth factorMetanephroiDevelopment of strategies
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